In Hawaii, Parasites And Viruses Team Up In The Battle Against Fruit Flies
An entomologist explains the implication for global pest control and the world’s food supply.
Take a stroll along one of the beaches on Hawaii island in late summer, and you鈥檒l likely stumble upon almond-shaped fruits lying in the sand. Known as false kamani nuts, or , they fall from tall, shady that line the many picturesque ocean views on the island.
But what may not be clear to the casual beachgoer is that there鈥檚 a fight for survival occurring within the flesh of these unassuming fruits. Tropical almonds are one of many active battlegrounds in a war between a global agricultural pest, a parasitic wasp and a beneficial virus.
who studies insect viruses, I want to untangle the complex interactions that insects have evolved with microbes. The findings might help researchers tackle global food security issues.
A Global Pest Challenge
At the center of this conflict are invasive fruit flies in the family Tephritidae, many of which have and wreak havoc on .
In Hawaii, several species of tephritid fruit fly . They have caused across the islands. Scientists and fruit growers have undertaken to control these flies since their initial introductions, but they remain a serious economic problem.
One reliable method of control has been to into the wild that can hunt down immature fruit flies and target them for annihilation. The term describes an organism that spends its development as a parasite and eventually kills its host.
Parasitoid wasps use an elongated stinger, known as an ovipositor, to where flies are developing and pierce the fly鈥檚 body to lay an egg within. Wasp eggs hatch inside the fly host and gradually devour the entire fly from the inside out.
Human use of parasitoid wasps or other natural enemies to control pest populations is known as , or biocontrol. It was that several species of parasitoid wasp have established wild populations on the islands. They have helped multiple fruit fly pests to this day.
The release of nonnative insects for biocontrol could have unforeseen negative consequences for local ecosystems. Therefore, federal agencies like the U.S. Department of Agriculture have for new and existing biocontrol programs.
The Enemy Of My Enemy Is My Friend
So, how do wasps achieve the impressive feat of reducing fruit fly pest populations? Once laid inside a fly host, the wasp must face the , which will try to suffocate the egg before it hatches.
This inhospitable environment has forced wasps to evolve an , also known as molecular factors, to combat fly defenses. These include a cocktail of different molecules introduced by the wasp mother at the time of egg-laying.
This is the origin story of an unlikely partnership that many species of parasitoid wasp have formed with beneficial viruses.
The goal of these factors is to , like its development from egg to adult and its immune response to invading parasites. By interacting with molecular components, like proteins, that make up insect physiological pathways, parasitoid wasp factors can delay insect host development and suppress host immunity to allow the wasp offspring to feed on fly tissue unharmed.
This is the origin story of an unlikely partnership that many species of parasitoid wasp have formed with . Virus particles multiply to massive quantities within the reproductive organs of female wasps during their development. Wasp mothers then use their ovipositor like a hypodermic needle to inject virus particles into host insects during egg-laying.
The virus particles turn into that infect cells of the wasp鈥檚 host. This infection disrupts processes like the fly鈥檚 immune response. Developing wasps benefit from the virus鈥檚 activity and return the favor by passing on the virus to future wasp generations.
Not All Heroes Wear Capes
Diachasmimorpha longicaudata is a small, bright orange wasp with a distinctively long ovipositor. The literal translation of longicaudata is 鈥渓ong-tailed鈥 in Latin. But don鈥檛 let its charismatic appearance fool you.
D. longicaudata is ferocious in its ability to feast on , such as the Mediterranean fruit fly, Ceratitis capitata, and the oriental fruit fly, Bactrocera dorsalis. Because of D. longicaudata鈥檚 ability to attack a wide variety of fruit fly pests, pest management specialists around the world have into agricultural ecosystems, where they dependably establish new populations and provide sustained pest control.
Like many parasitoids, D. longicaudata has formed known as Diachasmimorpha longicaudata entomopoxvirus, or DlEPV.
DlEPV replicates within the venom gland of female wasps, which stores . Virus particles are so densely packed in there that they often cause the venom gland to appear .
DlEPV particles are when injected into flies in the lab. The virus freezes the fly鈥檚 development and replicates with abandon until the fly鈥檚 ultimate demise.
In contrast, the alliance between wasp and virus is so strong that of their resident DlEPV infection causes the wasp offspring to die inside the fly hosts.
A New Potential Path Forward
My colleagues and I that DlEPV may play a critical role in helping D. longicaudata make a meal out of so many different fruit fly pests. We found a link between D. longicaudata survival and DlEPV lethality within different fruit fly host species.
When we infected C. capitata and B. dorsalis flies with DlEPV, the virus successfully replicated and killed large swaths of fly hosts. However, DlEPV couldn鈥檛 replicate within the melon fly, Zeugodacus cucurbitae, a fly species that D. longicaudata wasps cannot use as hosts.
These findings shine new light on the effect viruses have on host-parasite rivalries. The presence of these viruses could influence how useful parasitoid wasps are in getting rid of fruit fly pests. In the case of D. longicaudata, its associated virus may be responsible for the decades of this wasp has provided to fruit fly biocontrol programs around the world.
This work has also revealed a new in the war against fruit fly pests. DlEPV is now known as a lethal enemy for several of the world鈥檚 most destructive pest species. If researchers can determine precisely how DlEPV exploits fly hosts at a molecular level, they could one day incorporate the same strategies that this virus uses into new fruit fly pest control methods.
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